Sir: c1 Sir:

and aceturic (or hippuric) acid, have been unsuc- cessful. Wc have previously r~ported,~ however, that 2- phenyl3-benzylidene-ci-(4H)-oxazolone (11) r...
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MAY

1961

c1

A New Synthesis of &@-Diphenylalanineand Related Unnatural a-Amino Acids'

I

aCH-CH(NH,)CO,H, /

Sir: We wish to report a new, excellent route to the unnatural amino acid, dl-p,p-dipheiiylalanine (I), a method which we believe is general for the prcparation of many aryl analogs of this amino acid arid to be much superior to previously described methods2 for the synthesis of I. (CJ15)2CH-CH(NH2)COOH

I Unsaturated azlactones arc frcqueiitly coiivcrtrd to a-amino acids by hydrolytic and rcductivc incthods. Compouiid I cannot be ohtained by this conventional route because all attempts to prcpaic the required azlactone, derived from benzopheiioiic and aceturic (or hippuric) acid, have been unsuccessful. Wc have previously r ~ p o r t e dhowever, ,~ that 2phenyl3-benzylidene-ci-(4H)-oxazolone(11)reacted readily with benzene in the presence of anhydrous aluminum chloride to give the 1,4 addition product, 2-phcnyl-4-benzhydryl-5-oxazolone (111). V'hcii this reaction is conducted in a nitrogen atmosphere, yields of 70--757l, of 111 arc obtained. This saturntcd azlactone has bceii convcrted in nearly quantitative yield to the N-benzoyl dcrivative of I, ni.p. 192-193', by heating under rcflux with ethnnolic sodium hydroxide for twenty-four hours. Calcd. for C22H18N03:C, 76.52; 11, 3.31%. Found: C, 76.47; H, 5.44%. This compound was identical with thc derivative prepared from n sample of I which had been obtained via the hydantoin route.2C The hydrobromide of I, m.p. 205', was then obtained in 90% yield by heating the N-benzoyl compound under reflux for six hours with a 1:2 (by volume) mixture of 48% hydrobromic acid and glacial acetic acid. Calcd. for C1JI16n'02Br:C, 35.90; H, 4.9G; S , 4.34. 1;ound: C, 5G.li; II, 5.16; N,4.24. Thc hydrobroniide was converted to the hydrochloride, from which P,P-diphcnylalaninc, m.p. 234' (dcc.), was isolated by dissolving the salt in water and carefully adding O.1N sodiuni hydroxide until precipitation occurred (pH 7). Thc over-all yield from I1 was 63%. An indication of the scope of the method is illustrated by the preparation of the following new amino acids from thc appropriatcly substituted azlactoncs: (1) This research was supported by a grant (CY 4532) from the Satioiial Cancer Institutc, Xational Institutes of Health, USPIIS. ( 2 ) (a) C. It. Harington arid W. RIcCartncy, J . Chent. SOC.,8!)2 (1929); ( b ) J. 11. Burckhaltcar and V. C. Stcnphens, J . ilia. Chem. Soc., 73,5G (1951); (c) J. Anatol, Cojiipt. rend., 235, 249 (1932). (:i) 11. 12illvr and L. hf. Ilcbron, J . O?g. C h e m , 23, 1815 (1958).

lGS5

COMhIUNICATIONS

m.p. 203-204" (dec.), 52%

CI

c1 ,CFI--C"

("2)

CO1H,

/

CsH:

m p 189 1'31 (dec.), 57y0

and (p-XO,C,II,) (C&) CII-- CII (NIIs)C0211~IIUr, 1n.p. 213-%17', 80%. Other preliniiiinry rcsults indicate that while elcctron-witlidrawillg subst itucnts on the arylidcne ring (>iihaiicethe addition reaction, electron donating groups (c.g., -0CI13 and -CHJ) give mud1 1owc.r yields of the correspoiiding saturated azlactones. Full details of the method will be reported in a forthconiing paper. DEPARTXI:ST OF CIICMISTRY ILLIXOIS INSTITUTE O F

ROBERTFILLER Y. SHYAMSUNDER RAO

TECHSOLOGY CIIICAGO l G , ILL. Received November 28, 1960

Steroids and Related Natural Products. IV. Reduction of Lactones to Cyclic Ethers','

Sir: A rcceiit commuiiicntion froin this laboratory dcscribed thc direct rcduction of scvcral esters to ether derivatives cinployiiig a reagent prepared from lithium aluminum hydriae and boron trifluoride ~ t h e r a t e We . ~ wish now to report the successful replacement of lithium aluminum hydride by lithium or sodium borohydridc415and the course of this iiovel reductio11 rcacation with several five-, six-, aiid seven-membered lactoiles and forniic acid esters. 111 gciieral, rcduction was nccoinplished by adding L: boron trifiuoride (15-30 moles) ctherate solu(1) Itcfer t o G. It. l'cttit and T. R. l h s t u r i , J . Org. Chetri., 26, 986 (19G1), for I%rt 111 of this series. ( 2 ) This inve3tig:itiori was supported by I'HS Ilcseaicli Grnrit CY-4074 (CBS2) from the Sational Cancer Iiistitutc, l'ubhc IIcalth Service; Sation:il Science Foundation Rescarcti G r m t G-95%; and aided by Grant T-7'3.4 from the Americ:iii Canccr Society. (8) G. It. I'ettit and T. R. Icasturi, J . Org. Cheni., 25, 875 (1060). (4) An interesting stiitly of prcparativc procedures for tlie liydroboration of olcliiis by 13. C. Brown, K. J. Rlurr:iy, 1,. J. LIurrsj., J. A. Srlover, and (3. Zwcifel, J . A m . Chem. Svc., 82, 4233 ( l O G O ) , indiciites t h a t several rrlated reagents might nlso prove cffcctivc. (5) 'i'hcse eslwrinicnts suggrstctl t h a t a reagent derived from boron trifluoride and diboraiie might be responsible for the unusual course of t h e reduction reaction. Evidence favoriiig this proposal will bc prescntcd in a subscquent paper by G. R. Pettit aiid T. R. Kasturi.

1686

VOL.

COMMUNICATIONS

tion of the ester (1 mole) to a cooled (ice bath) solution of the hydride (2 moles) in ethyl ether, tctrahydrofuran or tetrahydrofuran-diglyme (convenient with sodium borohydride). Before isolating the product, cooling was continued for 45 min. followed by heating a t reflux for 2 hr. Rosenonolactone,6 a metabolite of the mold Trichothecium roseurn Link, was converted to lactone h7Boron trifluoride etherate-lithium aluminum hydride reduction of the y-lactone (Ia, 0.80 g.) yielded a unique diterpenoid ether (Ib, 0.45 g.) ; b.p. 110" (0.03 mm.), [a];' +81.9" (chloroform). ilnal. Calcd. for CzoH340: C, 82.69; H, 11.80; 0, 5.51. Found: C, 82.67; H, 11.70; 0, 6.00; act,ive H, 0.0. Analogous reduction of dihydroabictic ?-lactone (IIa, 3.00 g.)8 afforded 12a,l5-epoxy-12-nor13P-rnethyl-llP,14a-abietane(IIb) ; b.p. 120-122" ( 0 . 2 4 . 3 mm.), [a]:' -35.3" (chloroform), 5581% yields (Anal. Calcd. for C20H340: C, 82.69; H, 11.80; 0, 5.51. Found: C, 82.72; H, 11.58; 0, 5.68). Replacing lithium aluminum hydride by lithium or sodium borohydride led to comparable yields (64 and 80%, respcctively) of this product (IIb). Conversion of &lactone IIIag (3.30 g.) to 3-methoxy-17a-oxa-D-homoestra-l,3,5 (10)-triene (I11b) was readily accomplished employing boron trifluoride-sodium borohydride; 717, yield. The product (IIIb) recrystallized from methanol as colorless leaflets; m.p. l50-15lo, [ a ] ~ ' t83.6" ; C, (chloroform). ilnal. Calcd. for c19H260z(286) 79.G8; H, 9.15; 0, 11.17; OCH3, 10.83. Found: C, 79.81; H, 9.13; 0, 11.14; OCH3, 10.96; Rast mol. wt., 272. Reduction of the 17a-oxa steroid (IIIb, 0.20 g.) with lithium and t-butyl alcohol in liquid ammonia led to 3-oxo-17a-oxa-D-homoestra-4rnc (IV, 0.145 g.); colorless needles, m.p. 163Ici4.3", [a];' +41.5" (chloroform). Anal. Calcd. for Cl8€L6O2:C, 78.79; H, 9.55; 0, 11.66. Found: C, 78.61, H , 8.44; 0, 11.81. A coiivenient synthesis of 3P-acetoxy-7a-oxa-5a13-homocholestane (V, 0.38 6.), colorless blades, 1n.p. 103-104", [a];' -20.4" (chloroform), was achieved by reducing 3~-hydroxy-7-oxo-7a-oxa-5a13-homocholestane10 (0.73 g.) with a boron tri-

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(0, JV. B. Whalley, B. Green, D. Arigoni, J. J. Britt, and C:. I),ierassi, J . d m . Cheni. SOC.,81, 5520 (1959). We are indebtcd to Professor W.B. JJ'halley for a generous sample of rownonolactone. ( 7 ) Cf., A. Harris, A. Robertson, and W. B. Whalley, J . ( ' h e m . Soc., 1799 (1'358). ( 8 ) I,. J. Cough, T. F. Sanderson, V. I. Stenberg, and E. IYcBnkert, J . Org. Chenz., 2 5 , 1269 (1980). We wish to thank l h . T. F. Sandereon for providing this substance. (!)) It. P. Jacobsen, J . Riol. Chem., 171, 91 (1917). (10) I